This course has been researched to give you a clear understanding of cell design for safety, with sessions on testing, and recyclability. The concepts of each technology and best practices are presented in a clear and concise format with real life case studies, cell X rays details and CT scans, enabling the delegate to make sense of the reasoning behind the manufacturing procedures.
Delegates will learn how to use a systematic approach to Li-ion battery pack investigations and how to differentiate between external abuse, pack electronic faults and internal cell faults, thus helping you towards improvements in manufacturing processes.
The service aspects, architecture, operation, planning strategies for the key chemistries are presented, together with the main issues involved in safety and evolving towards next generation EV batteries. In addition, the delegate will gain a basic understanding of cell design used for EVs. The course is structured to allow questions and interaction with the trainers.
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COURSE LEADER
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Troy A. Hayes
Senior Managing Engineer - Materials & Metallurgy
EXPONENT (USA)
An engineering and scientific consulting firm performing in-depth scientific research |
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GUEST SPEAKERS
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Quinn C. Horn
Senior Managing Engineer, Mechanical Engineering & Materials Science
EXPONENT (USA)
An engineering and scientific consulting firm performing in-depth scientific research |
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Carl Wang
Research Manager, Corporate Research
UNDERWRITERS LABORATORIES (USA)
Managing corporate research |
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Xiangming HE
Director, New Energy and Material Chemistry Laboratory
INSTITUTE OF NEW ENERGY TECHNOLOGY – TSINGHUA UNIVERSITY (CHINA)
R&D for materials in li-ion batteries and sustainability |
中文
English
